Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0018801 (heart failure)
72,216 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1 This study has compared the diuresis produced by a single oral administration of 6 mg piretanide, 9 mg piretanide and 1 mg bumetanide in a group of nine patients with cardiac failure using a balanced randomized design. 2 The natriuresis and kaliuresis produced in the first 6 h after administration of piretanide 9 mg and bumetanide 1 mg were similar. Piretanide 6 mg produced a lesser response. 3 There was evidence of sodium and water conservation following the diuresis for up to 48 h with all three treatments. 4 The patterns of urate and calcium excretion were similar for the two diuretics.
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PMID:A single dose comparison of piretanide and bumetanide in congestive cardiac failure. 38 25

1. The renal and metabolic effects of the sulphamoylbenzoic acid diuretic, piretanide, have been studied, under controlled dietary conditions, in 39 patients with congestive cardiac failure. 2. In acute studies, peak saluresis occurred within 4 h of oral piretanide administration; saluresis was complete within 6 h, after which a significant antidiuretic effect was observed. Addition of triamterene, 50 mg, blunted the 0-6 h kaliuretic effect of piretanide. Over 24 h, piretanide, alone, caused insignificant urinary losses of potassium when compared with control. 3. In comparative studies, the piretanide dose-response curve was found to be parallel to that of frusemide over the dose range studied. The 0-6 h saluretic responses of piretanide, 6, 12 and 18 mg, were found to be equivalent to frusemide, 40, 80 and 120 mg respectively. The collective mean ratios of all the saluretic responses to each dose of piretanide with the corresponding dose of frusemide was observed to be 0.99 +/- 0.12, over 0-6 h period, and 0.86 +/- 0.09 over the 24 h period. The relative potency of piretanide, when compared with frusemide was found to be 6.18 (95% confidence limits 4.87-8.33), over the 0-6 h period, and 4.73 (95% confidence limits 3.65-6.14), over 24 h period. 4. In 15 patients in severe cardiac failure, urinary recovery of piretanide, over first 6 h, at the start of treatment was 21.2 +/- 2.1% while efficiency of the diuretic (mmol Na/mg drug) was 47.3 +/- 4.1. Long-term piretanide therapy was continued in the same group for up to and in some cases over 3 years. No other diuretics or potassium supplements were given. Piretanide dosage ranged from 6 to 24 mg day-1 according to clinical need. Plasma potassium fell significantly at 12 and 24 months, though remaining within the normal range. At these same times, significant elevations in both plasma urate and total fasting cholesterol were observed. Two patients developed overt gout on high dose piretanide therapy (24 mg day-1). Piretanide was well tolerated, and effective in the management of congestive cardiac failure without any other recognized metabolic or electrolyte changes.
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PMID:Acute and long-term renal and metabolic effects of piretanide in congestive cardiac failure. 320 51

Several new diuretics have recently been developed. This review summarises the published knowledge about some of them. Azosemide is a loop diuretic. The bioavailability is about 15% and it has a half-life of 2 to 3 hours. Renal and non-renal clearance are 1.32 and 5.4 L/h, respectively. Etozolin is also a loop diuretic. It is rapidly metabolised to the active metabolite, ozolinone. The gastrointestinal uptake of etozolin is almost complete. The plasma half-life of etozolin and ozolinone are 2 and 10 hours, respectively. The compounds are mainly eliminated as metabolites. Renal and liver impairment do not seem to change the pharmacokinetics. Fenquizone has properties similar to the thiazides. The plasma half-life is approximately 17 hours. Apparent volume of distribution averaged 686 L and renal clearance is 7.2 L/h. Indapamide acts predominantly on the proximal segment of the distal tubule and also has direct vasodilatory effects. Gastrointestinal uptake is at least 80%. The drug binds highly to carbonic anhydrases of red blood cells. Protein binding is about 80%, while terminal plasma half-life is 15 hours and the apparent volume of distribution 25 L. Renal clearance is 0.3 L/h and non-renal clearance 0.9 L/h. Several metabolites have been described, of which one major metabolite is pharmacologically active. Muzolimine is a loop diuretic. Its uptake is almost complete, but decreased substantially by food. The protein binding is about 65%, the apparent volume of distribution is about 1 L/kg and average terminal half-life 10 to 20 hours. Elimination is mainly non-renal, and non-renal clearance ranges between 0.5 and 1.32 L/h. The pharmacokinetics of the drug do not seem to be changed in cardiac failure. Terminal plasma half-life is essentially unchanged in patients with renal failure, except in those with very severe reduction of glomerular filtration rate. Piretanide is a loop diuretic which is about 6 times as potent as frusemide (furosemide). Its bioavailability is most likely complete in healthy subjects and in renal patients. Protein binding in healthy subjects is about 95%. The plasma half-life of the drug is about 1 hour and apparent volume of distribution averages about 17 L. Renal and non-renal clearance are about 6 L/h, although renal clearance is decreased in renal failure: this decrease is correlated with glomerular filtration rate. Non-renal clearance is unchanged in renal failure, as is the apparent volume of distribution.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Clinical pharmacokinetics of some newer diuretics. 331 32

Piretanide is a potent 'loop' diuretic whose principal site of action is in the thick ascending limb of the loop of Henle. When administered orally or intravenously to healthy volunteers it rapidly increases diuresis and electrolyte excretion, and the effects are short-lived. In comparative studies, piretanide has generally been found to be 5 to 7 times more potent than frusemide (furosemide) but only one-tenth as potent as bumetanide, on a weight-for-weight basis. Piretanide 6 to 12 mg/day, in conventional or sustained release formulations, has been shown to significantly lower elevated blood pressure in a large proportion of patients with mild to moderate hypertension. Comparative trials of up to 3 months duration indicate that at this dosage piretanide is of comparable antihypertensive efficacy as hydrochlorothiazide 50 to 100 mg/day, but has significantly less effect on serum potassium levels. Short term studies in patients with oedema caused by renal, hepatic or cardiac failure demonstrated that piretanide 6 to 9 mg is of similar diuretic potency as frusemide 40 mg and bumetanide 1 mg. In medium term trials in patients with congestive heart failure piretanide 6 mg/day produced equivalent symptomatic improvement as frusemide 40 mg/day. When used to treat oedema caused by liver disease, piretanide 12 to 24 mg/day was successful in only about 50% of patients, but spironolactone added to the treatment regimen greatly increased the response rate. Generally, piretanide has been well-tolerated in clinical trials, although the conventional tablet formulation has caused a relatively high incidence of acute adverse effects--these were greatly reduced with the introduction of the sustained release formulation. Serum concentrations of most electrolytes have not shown any consistent adverse trends and hyperuricaemia and hypokalaemia have been encountered infrequently. Thus, piretanide appears to offer an effective alternative to other 'loop' diuretics for the treatment of oedematous diseases and to hydrochlorothiazide for the management of mild to moderate hypertension. However, its relative place in therapy remains to be clarified with wider clinical experience.
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PMID:Piretanide. A preliminary review of its pharmacodynamic and pharmacokinetic properties, and therapeutic efficacy. 389 5

Piretanide, a diuretic that acts on the loop of Henle, was used to treat patients with cardiac failure. Over a three-day period it caused a significant dose related diuresis and weight loss. It was as effective as chlorothiazide in the control of cardiac failure and was well tolerated by the patients. Potassium loss was less than occurred with chlorothiazide. Its role in the treatment of cardiac failure requires further study and warrants further investigation. The study also showed that many patients with cardiac failure receive diuretic drugs which are not necessary.
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PMID:Comparison of piretanide and chlorothiazide in the treatment of cardiac failure. 699 Feb 12

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